A gated channel into the proteasome core particle

Michael Groll; Monica Bajorek; Alwin Köhler; Luis Moroder; David M. Rubin; Robert Huber; Michael H. Glickman; Daniel Finley

doi:10.1038/80992

Max Planck Institute of Biochemistry
Technion - Israel Institute of Technology
Harvard Medical School
Cognia, Inc.

Research output: Contribution to journal › Article › peer-review

725 Scopus citations

Abstract

The core particle (CP) of the yeast proteasome is composed of four heptameric rings of subunits arranged in a hollow, barrel-like structure. We report that the CP is autoinhibited by the N-terminal tails of the outer (α) ring subunits. Crystallographic analysis showed that deletion of the tail of the α3-subunit opens a channel into the proteolytically active interior chamber of the CP, thus derepressing peptide hydrolysis. In the latent state of the particle, the tails prevent substrate entry by imposing topological closure on the CP. Inhibition by the α-subunit tails is relieved upon binding of the regulatory particle to the CP to form the proteasome holoenzyme.

Original language	English
Pages (from-to)	1062-1067
Number of pages	6
Journal	Nature Structural Biology
Volume	7
Issue number	11
DOIs	https://doi.org/10.1038/80992
State	Published - 2000
Externally published	Yes

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@article{715d3b1df76b489187b7e07c2238b9b5,

title = "A gated channel into the proteasome core particle",

abstract = "The core particle (CP) of the yeast proteasome is composed of four heptameric rings of subunits arranged in a hollow, barrel-like structure. We report that the CP is autoinhibited by the N-terminal tails of the outer (α) ring subunits. Crystallographic analysis showed that deletion of the tail of the α3-subunit opens a channel into the proteolytically active interior chamber of the CP, thus derepressing peptide hydrolysis. In the latent state of the particle, the tails prevent substrate entry by imposing topological closure on the CP. Inhibition by the α-subunit tails is relieved upon binding of the regulatory particle to the CP to form the proteasome holoenzyme.",

author = "Michael Groll and Monica Bajorek and Alwin K{\"o}hler and Luis Moroder and Rubin, \{David M.\} and Robert Huber and Glickman, \{Michael H.\} and Daniel Finley",

note = "Funding Information: This work was supported by the NIH grant (to D.F.), the Foundation for the Promotion of Research at the Technion (M.H.G.), The US-Israel Binational Science Foundation (to M.H.G. and D.F.) and the Deutsche Forschungsgemeinschaft (to R.H.). A.K. was partially supported by a fellowship from the Studienfoerderung Cusanuswerk. The authors thank C. Larsen and G. Dittmar (Harvard) for generous assistance with computer imaging, K. Mann (Max-Planck-Institut f{\"u}r Biochemie, Martinsried, Germany) for help with N-terminal sequence analysis, and G. Bourenkow and H. Bartunik (DESY, Hamburg, Germany) for assistance with X-ray experiments.",

year = "2000",

doi = "10.1038/80992",

language = "English",

volume = "7",

pages = "1062--1067",

journal = "Nature Structural Biology",

issn = "1072-8368",

publisher = "Nature Publishing Group",

number = "11",

}

TY - JOUR

T1 - A gated channel into the proteasome core particle

AU - Groll, Michael

AU - Bajorek, Monica

AU - Köhler, Alwin

AU - Moroder, Luis

AU - Rubin, David M.

AU - Huber, Robert

AU - Glickman, Michael H.

AU - Finley, Daniel

N1 - Funding Information: This work was supported by the NIH grant (to D.F.), the Foundation for the Promotion of Research at the Technion (M.H.G.), The US-Israel Binational Science Foundation (to M.H.G. and D.F.) and the Deutsche Forschungsgemeinschaft (to R.H.). A.K. was partially supported by a fellowship from the Studienfoerderung Cusanuswerk. The authors thank C. Larsen and G. Dittmar (Harvard) for generous assistance with computer imaging, K. Mann (Max-Planck-Institut für Biochemie, Martinsried, Germany) for help with N-terminal sequence analysis, and G. Bourenkow and H. Bartunik (DESY, Hamburg, Germany) for assistance with X-ray experiments.

PY - 2000

Y1 - 2000

N2 - The core particle (CP) of the yeast proteasome is composed of four heptameric rings of subunits arranged in a hollow, barrel-like structure. We report that the CP is autoinhibited by the N-terminal tails of the outer (α) ring subunits. Crystallographic analysis showed that deletion of the tail of the α3-subunit opens a channel into the proteolytically active interior chamber of the CP, thus derepressing peptide hydrolysis. In the latent state of the particle, the tails prevent substrate entry by imposing topological closure on the CP. Inhibition by the α-subunit tails is relieved upon binding of the regulatory particle to the CP to form the proteasome holoenzyme.

AB - The core particle (CP) of the yeast proteasome is composed of four heptameric rings of subunits arranged in a hollow, barrel-like structure. We report that the CP is autoinhibited by the N-terminal tails of the outer (α) ring subunits. Crystallographic analysis showed that deletion of the tail of the α3-subunit opens a channel into the proteolytically active interior chamber of the CP, thus derepressing peptide hydrolysis. In the latent state of the particle, the tails prevent substrate entry by imposing topological closure on the CP. Inhibition by the α-subunit tails is relieved upon binding of the regulatory particle to the CP to form the proteasome holoenzyme.

UR - https://www.scopus.com/pages/publications/0033766480

U2 - 10.1038/80992

DO - 10.1038/80992

M3 - Article

C2 - 11062564

AN - SCOPUS:0033766480

SN - 1072-8368

VL - 7

SP - 1062

EP - 1067

JO - Nature Structural Biology

JF - Nature Structural Biology

IS - 11

ER -

A gated channel into the proteasome core particle

Abstract

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